package com.upup.cloud.insert.utils.ch;



import com.upup.cloud.insert.utils.Base64Utils;

import javax.crypto.Cipher;
import javax.crypto.SecretKey;
import javax.crypto.SecretKeyFactory;
import javax.crypto.spec.DESKeySpec;
import javax.crypto.spec.DESedeKeySpec;
import javax.crypto.spec.IvParameterSpec;
import java.io.UnsupportedEncodingException;
import java.security.Key;
import java.security.SecureRandom;
import java.security.spec.KeySpec;

public class DESUtils {
    public static final String b ="spring20140530airlines!)";
    public static final String v ="12345678";

    public static void main(String[] args) {
        try {
            String str ="fRC2Q6PDXgxKU9TTXwIhUTcEPMm4uHfWWYV+yszmANqXFaPpBzuS+Jihf9+sLj9MJjZRlsCDK0ZRP98WfSnfxhMXreoN4ZB9ihLJGpHssZahyWbxNIfIjA9P1l/8Ds9KnIjj3Y25GqRhYrKMo/aHjtwzAo8DhBxAUTIxyK+XiESHVTxieT3VomEgAkQh5AIirFs+e5XEC1NpVyJownoi8lcdBrabt3dzEnIJOGRCmwbQ54jzzLxMySYZNJqHmcIu8jnBczPHrDWL0QVp0ADYn+nYhiyM9STbzGZiCgt0QsQInYgfti/X4RfRoYEhRk4HclIQDs8NvLTYmcI+XyRc0eaLWGzcDMcX8MqpCSQwm3csS1Njf+SaBTU2WDDQdkcrBjFSHxXr1WhuDHI2tgvVK1BFy0NSyTVYiQ8ktmg7upEbElTx0Amh34xq36QfwChG4qsUhPGkZ5HvHrHv7eRL1FPbUbE3LWLkleEOArcOWZJTnDQ89vl25SXJqmXmIi+psz3B6Mnfbc02h8oanP51L/HSkKcb9tVI18cv3RgQAbzZ5Iewg1t16PLy0OsITn6kUSYFCrzczQjjMIw9O/icbgs3SpvajolB8VnEWxCRVT3h83mpjoD01TWiyUJPuZL5Dj09X0zXX79evElzz3HmaMZfI9FQUy/CPGjxNL7TggIA2t069KsF2vH0V2UJ9P3v0XIEKT4DwKnjH5SZUHLnT14TBKRBKX87alINjd9j8XCU599QJ8SaRtIpEaHPnNYubaL2PBNm65S78rcvXnRqFhClXUdpepXNh6g5Y2IchKNAGtwqpVT4taH4ZY8jEh5ZoTjZeCHz15NTAg+1ZjTIcUbNQFK7PA0WmBzUPrxvTqHRAh2NvY5v+vvSUFAPTzZ1NDJNKm12zJJLRf9l2leWjKHVSoS2IWUD+hmYJDegru6GGj9E8fTe3lH9TjlWvabEvuf/PsmDufHNeEtNIgpkWkDI09m5ilfU+JDnP1TaNP+RQjYbGvIq0Aex8sMNvtzuoaQZiP/PszxEdQUSlJyLhrhsBEEiygShlQ2iW9ZtMS01CoEM0BkabwL5w62i0HbRcfNYcai/m+IYJKMze1OYDxPGILFiV9df+d2T1Xz9G6EbL5tQw7ceDJX7bhKFqHdC+bdxoPGV6jfpomC8nnrzmNinnkfSgVY8g+K9Wc2MRy38IaWivhLOotuK5KMCrYY+nbOr3TBXw8lU3pIikP6WtlgVfMaxIQwbSHO3eunkbjzkRSDnC+VA1+jjG95IrYA+auc0VEMwU+LSvbOsLk6D7jX6f6jbLzPdrjVie+ptIzqvPYHPS5nei1NT6omt89dLbMT+zPEhH3QtIALRFXdJX2FBRAa10BoSaQAc9Y9EoOtSQUiR9d/xJxcYqdJfhFxGfvcrvTBKweKh07YmVXHKB2wR1yLQhhxOgHsXgXFnEv9ShgPtHNNuBALM/RBmdFN8ehYSNikBIOPbUiB43P9nWhRJW3NAU7yh45ubC1BPrQHKOFhPNohJGRfP/1xV5nhJ8O6gdqPtvpCb0GdR7KjvfcLmRGp71wx93dGocpTsc9oV//idmv2IffPxhK2Kt7kOi2BZqA5kAsald89Wk8HwHYnntGBnq+v88JO4E6r++DieDiSPEodXrGmvPYC09u75OYyFN/bfHGXcaWnjBKb5UcYcTI4b06Lrts7fSf0o3jWyeyVKcE0rzxVG8GPnjZwypzWrl2R2xP7knVYoteSsryU7sp/dyd1KLO7sH1iDR3fYhSI0SsqBZXyM1GvoNB2hkds/QLuTS8aulEkSU+NDmYanf9XTUDjPasVtIYcEIOc4bpJ9cd+acDTnFqoE36p5g2kXQJFlmwKeSECoDEIFp6b+ZgtI274e3bSd5wSmTl1N7W1Ju1wZ9BwChzXhYMytEwkF+QvdpLsrj0JLrr+KgbTjZstvWDjzmjQY2vCHD1BdRszhHTz28ulq7NCNSaBqvEW+uW1i9SdBdqBZl9GDp/2qwIO5YOHNgGYwVKYa8XniXlI+FNEuiGrO3OKLR9XrrQ5FhHtSuIYIcUfFtO166VMvkXJB2Bhr8L+R+lJc4v8kM/xgDCRlRlQ7G/qE3ND9HDESGKUGcPSwkMGuHdXfKZxZoFxsOs6HhOIAkIDh9R6lehLI4nQIL99JBYM6A1BAruK4mrOCeFzCHN+cW7MAJrjB+gzAinnIR+1KOzLT9HmTotUosYMTYXg69bEwMkpwHznu470LXhZ39tELFvBr+5Vyz4Q/CV0H+L0XBwjNYlSDRLVWXMaxnQGE4hZ8WSUaTwpeTlbwasNw9/FDAN/uOsoPBRZ1ZUvLYFDrJ+LpUZTdMM9otsOkTNTe5vFF10OMQKK1CNWSqC3Q8wIkfrXrPr1NrOx6+AmaAGqkJmOrvpU8Ll/mLtWb2NQPHE+PweeEIFAyXB61E2ExN55upmBM8rCFXAj78qPpn79k2gIHTSpwEl3knb0dOENzKQjmUgd/iqki0+1rK9fugheraph22pdjdne/7Ti2qbr0wYA0fLMpJ8Xnteiyn30tOMhOAj2kKlldA8au4BLonvs5FUpz9BMPv5ul7Fbb0K5oea0S9HccskJ3qFbfLsAwkraoIDJBh7AOpD2wXK+snWNmlyMbp5ATFWcRQFYwprmUXEbLXZ7vPFasqcG2pcB7lZkCut4FBs4EzsWwKvYCOZuoF54Jj7J+2/TIGXftQn5QYcZwwWzauROVuoyqsse/LYKEjrPdrtJ40225Zz43HEHZwqfBT546ESLqIU1QnkeErhIN79Ba4cPqMn19LI8KzdSOnm/LZVbFvXmD/fW4gZXJ/gA4Ek6rNYiUtHu7B6OPK7WHfqLSyNz21MGgP+8ZEJmommVcMCSl4m1IQRNdLkhIvjrRGpeOqT0oWC2zO5D5j3KYq46o89eTc8d3E9GGkuFOy5b5vmtIoFT3vKFU1ftbmsP76yUsVcbcYgGd/qR3AQ06GZ0BCXEx5BrJef5pJePt9CrRpalMH0JYwEbt7b87q7RwvvPKbT5RefqWgNOFABxtENDWleC1436V/9+fD1KAcUuk5yimu+NIYfp5jtgpHa4ZznbXGxpisxZKpn92wiWIUf1q2azV2sg9CwngKRVBT12apmsS/X2/TM2Fa184HrrJwaiRo8FhEuRLFxay6TDWxtNKqcQETKoLXq5aGV2fjZ+2Zz7Uorq7oMGTmgw0HU5cdR9NjQKWO1XCLpU7Ub272olgv7M444zivrDDKIjIlqxg0JgQYralJudhU6yODGG6ZZoTksHRHICmEDTvw2TzLksUrWdEQLTS1MfDxWVIH95Ht9Sn+vhVGcFCHOGduQnUcrIa5qYSnnms6X9eWN0wF2+FcDJupJmjnwp9wCQ0lJtfGqXpD8PiOifpP0aBB6TxBX2q1Jm7hiRRgsGDiOAtgL9VFkjmMcohITCC2StMqq/iDpWeBZziAprY0N0KKslJWdscSVxEAftd9+k6KWXZQuDkVirTqLCna9ZtFD4p7AR7gi2cbKM4hj4V/EXI/5yYa5TEVmWhSDBl8kawop920fyHicVprqvMMuKuALIPB5wnNtzlaOde3A1VFT1d1KIguarDpLb3a11CW6qLUUm1MmFJqU5wEp9qVwWCI0KUNnaSnlqJElgblI6EuRX6pHcB4HnSd0GV97g0YORALdI3XcyN5vWsHyvq4TlpQoAhqlIRJGsenNo4NlK6f+I4CPjOxaLJiARJTTgyswVipz+DauMxbOl1P94kuwi9Z2bp8hTFXj7AlMqjNXE/ifIk2Vr1tt3x2kTGU1YOK1GvUxGTLDbHO97xo98s0qCEjtuiiWKlHOEh3bghTRr12bdCnMUdol3aAsS/DyLHcMOve7AD+nmXEXX3iYqYBmDyFu/8O7Z7H/UO1UVFJYCcQH2QfR4x5sOnrwSGocRGgVKJRIIzm38IWEzjHUcx3TAMR+mTy1MDVAIAxYgqV8qHNDoWVtTcvP8f8/Xz0f+OkNNGHOzdqFiL5DJNEFggp+RakBEIrlWqndWyZMfj9V93mwqgvrT0hm/DOhGqDwnJK9X+huuFhEwo+Aet8T8YqoGt7e8svar9I+CxhLQH8sEJ3FscWWS9fL/xQfx1uPHje2legUrmGUnI6dcYcvbxAtEPfXZviRXGHZ5A70FgK1a1nJqweus3lkDy0ODOPswB6IbuwH8ZvMPXw7yMBpan+gIk7BXPLG/PpoxaEuje+9ckOvizztHaqNBKCa5YdnkxDZPkvDjyE52o1x+cNR7gofxNaR/CWGswI49n3bH/Fxv//6nqS+40t2zBY+xiPR0UB2TsnCBPYO8OxySneOzQcLsocjNZcA0SC8L35MsupkCGpGgP4RuTef8wls7E/ImsZg5P3AV6vGYB0l62NddujdezeSM3HevSitmxd+VxKGUCKzMNoieRNeH3qrlhTTe/104NIDL4EO70KZIUb7kcUUDhGwytik5MjDypeddDNXQEUbqGMxMtcwaTepcal04YyatNWzLHF6M6Y+0ntcFywmf8LS8NbZLB2OBQ1IzMTkSmoX2gMfxWXlGHz/tT2wI+Lnj4OuKHwFGqlTCmEI+c+z4Gxd1APKWnOCPTQmCFoxkQOeUIQKZLcZ/Nhk+9xn0b9LR28A96smPfjNsCNHtl2MiO1Y+iqk8CASS4l/d3gn//Qf7m5tZ0eIdHxTlac5HRCnm7gvszgBlbNDjGSaakzQB2GBj2/sFQuQkhLyVhecFeAlahwQ6X3hW40S0026gwkv7F9N4ZC4anqAdc2TuuiAUf0SHhUVzAVr+6LP+y6Jn8OMDHynPdnJTMpeoGG+m3QxZGG4kkfMwRcToI6K3pupTw3GHfgQnR7LajMGknw6JCCwrB/qDlfDNFyyFw0rH6c0eXIPty5lbdrjVEXSKmQl86LcvhXRRVWnjLdxrtvxMszHMw6Ku5a0wkNQnesIB+7msVi6yssg1sh60Mxm+tjXbunmR4wgGN52qmIda2QhWiIgh4KeCCZgoIip6Tvx/eumV/nTU2QwB7lXKJwDfVNfn1HKei68VtLzBM+HIbgES1q0hf1KwIPJUMnsQEv9tfZK9nFEofMCUNN58Ae+thDHEBxpTACPCY5rkP8bLCQQmdKHqex40A3GjI8AOb/oWmLm81nmdT1sjQ62Oc5A+QKNaDe7MvTa1k79FMRrBpZCL8HhlGbt3tvcySz1ZVq/vZzmpP4VVIkGwDKmWD48eiB4MoCAYG2ghgsl5vffOCjPznrEq7hMeo5V2d+5zPkT3cHAK3hK0A7RrQsgY3wMdNIywf7+7nJUV3N0p6s5c9uKMArhQCbScUizUrNPlCJwWvyHtP6e5fCQJcOqMlEon/0iK74lJwGWD/EIykWeX+Mu1VhCRrARTfZ6jNUkqRqoasuEdLvrn3NNJ/v0o+JZCfRjm6ZlYQcsi317nF/4CuBKGdgumbZEFn4OVKjw9gYH9+giFX98TbN6U4SmnTHpv/3WBGi2t83hKHPO69m0XznUMvD/c+ogdS4dOFaw2p6hGXUGrtiOyUvacTNiEf/a3tktmRJVFZvOA3iT53jx/yOGZmKvQycCkDFEJ0360fk+XC9YLQn7+T1a04eZoga9scrGwpGG2FaEqcDVq/66dVIhFud+wuDm2kd+iKIzpWVx2WiAwb1a7EUpi6XWQM7zH9Ym2NNpKldHamqprTSZG1MhDkWEIdJ1s9dw4F1P9t+oK85gzya3+npk2wWoKwktXSOiX3amzHc8GvS5Tx9eGYCTAu1r2LyNahjlYmYmDJKhWi6Q8zPCwDYkFzz+ExKteh5RVoo2YOj4f2Q1S1oWCNHve2nSp3tZseZbmBtdlmNapYmgWXaSROXOqX6VaqAXjP+ijgaZKYa9UqtQYUKx128+LEKLEJn8o3zgu8Hn+jRCw+F6zQN2fScVF2ovRXA98eWZ6jl9Ffx9Nf3gIvmECv1Q3pu94B7TFMQBSdqzXj6KgSa+85yHXZ5UZeom1PdRlqepM4TOGPVYu0FbpU3AugAdw60hSwDtjLklKz+no3VBjHdbrsZW1kIzSIeh+HNk3lY4dF+K//y1qhu0WOE3MVhOW8nStqj1gb/WNowiaDj+iUMzb6SWbfziwlHT+PYGEqvsId98tgFpoweK6amQln8c8yezhTRFjdmWQiQvGj7nEsQob4FVKslDzvtixUYGyRijwNcxdLIBBjTipVEi0NK42fMOW+pvZH2BQPqjlHGRdCHIv6sExdJmcx4+2y7TiLh07BK1QouaQGTclF09He/cLKx1uHf0FEHR4TQw9nx5uwAH2/Pw40SBKTq2735hPTQvjCxwRACglacgeNZqxtSQxmBdiyH9VLnGJoK66wRh6Kc58bftZszQFknUzWAAyC01mu/KDIG+g+H5PEHEcx5mPMBR6Ti+TM3czIwMVPcuIl15VKPEYrES0X+hRUCG2PQ0VX70CWtjtXeky/F5Uciz4U56EbKEc90fDDhS3Lpn58qkANip4O+MlxCrZ9kX40RemlXpVfuF82ddsfBzzIHsjrJ+P1NR2v8NCQNEiL45phPjywnI8mEtaf6jfdIwZACC2D6tUAec5IkZz95WxTrVsuCGRYoegEQsa4F6yt5+4GRXeSHD2DHNmmdLgsrkR8VKaxWSOn8BpYjachF2h8x9GGm9mEgEpT1dF9Rwqdh9QzEwAE7QccT1+ar/t4hXMEENHfvCqM3FMP7VNlSVdjOgh0gVRubA8CfC0eUnMLBZqvL6ledkBvLkkiORwaa1rk917HL1rlN3/A5DQp3ghpcxyhxvPgxuRu6VRQE+rxkGRefVg6BHkWdbnGu33EncnuDrf5URwKH8fKjJUghrosPw2neYArYw33CZaqyok6SFvSCRAyg8EM6Krr7WvrgYasZGOw6T6UUUNk4knfr6evkl//ah+ExP96GxtBHWzcHn7MMO7155EgPrAEGkW0R0oKonnMWBOpVx6dxQ2zH/Xnj24750bjhLJV7nslARA3hTKzJg6HjxF851sAITpJme33z5jgGsZRLNjeZk9zLWY0DTI1M2rewIDoX0MBzN4wWL1k+nTacctyTXc3sMUZjThIvOy91kBuMyjFxYdmwsehnMw0RuI+LwU0Cy1X2ckXwnBiYFAnMkMxdeuKnPfCRrCSdaa9T44skF5NVCh+TGgkeru1cfoDcUKsL5Vm8/97gCDYzjBahIJc47j6IZYRswihEiseWs1fmb6hkX0RdZ/k92c0WGQCj+WQq2do/D4hR66xpUvQYN/J1XdNPZwsSarFzBbIg6qsWV9wMNJztgBLEfXvb+f4bBk/NE0mPB4PH7XSk2+ZOrl5k7eTKMd/rG7HVjTRrVRCawg6hpkNgj1nwRAuMc1H9wG/8FexTDrR/Qb/VoAd7Cz6KuUAILm79V5/1DydGPes3lZX2THgl+U8c0dSgjngFZlK0XEu1Zyfhtf5/mtSxIelNHwdBEDHZdBUPKCdxxNHaEwFFbSzqhH4AC4ukB66wxPppn7TXevlCNg8IluErdUZYcq3vZ+zHDR0yuTFyZQ66S6KQFzsoU+bXQm2K80Pmldp1oWUeB2fghgzNmliEeUX4wKBQnzBo9pPGr1TVjHiIg9G73AmxSlJY7xjmCqVCcsjjvAk0zOk9iwWXxKpZhul15aCL0sQGVGhKKSaPg16sw0zF5rait8Dra3mw0AKbUPq4P+dTWDHx2kJOihcxAzNinb0hD4GfjO1x76ixEsFZcn44MaBvJMsPKoNXQiBM5ECVZyGuvXDx8s+MoAHrvcrC740TCRBTjxymp1rG9YCT+b1CIlUL7LizSkErseB/aO+yYFCdLID6365+O2+hHlfs0egvxpgsja9df8WaxPXa3UMvGYdJCxNsBWdbFZ8jHPhykFy3Wfm0I7r5p8LmfENsUR3ZwEHFDrz5e2d9jaX083QhiC0c4Hzj46C/04PGMHrMrIpqv6k//hStAavJLise6ZBwIFwAp2lulVvM9zs3mWR7XLN5LbLVR4FfYCptaWIbwLb3I+6Sj9b9I2mqJONzVt6Phk7DzSYdkENuF3lxn4XdcxXHFbp/qWjf9PHQ1nO+xpsPyI0PNQMtHV9yDQJbbg7rJzde6eOoIurBc73uXrc3SygTzs1FJHueNc7ljZQn6jzuD4QLsGNfwhe8fmFeBMcv+NxrNXuW8/Q9eqJOTOyDb8RkURSLTYzWEGGQy7g3FEUbyeJ94qY4ICnqq4/3+SQgmjho4Ds0xvQGRsN6m/KwLrqPUMmy4UsRF5I2TSTf/Y7WnmQnKBKJXen2cdeuxGMjsUsXLT1T/YGI5N2j9S5C/LWtTzILQ1cAokgD44FvxecqCMFndiZtHxjz0vSo0RJAfEG62gQBIoiWb74tjwr+glCkSKX95uw47JCM8Z1lslT1jvOwT1KbXUZYIGOV8iqhsd48B35UtodLao0VohF8f+6QAHae4X416fML0D5YaGuNPUXQTsl2l1DKg+/sMV1XWaNt+mfKBY24RQkfCVugOvMEcAj0vOUH2czFomx2at1ZWAAx2HU0BqJw2eSIIJJhDHnGgDmeWRRycRB9bYMmhj4DomWTE+/rTDeos3arLR5wQP4D/rDT5aqetL98z9GMKJ8xsYDMgS1mLwHLC+55FJXdqtjR1uijHEWhSEbyx+QJdUUPVFxeHAjTdSmeekYY0Yuig4aDp1N00BDgafUkDZOmr9m/pHZNek3Q6klD+xo7N1KVy93rpoWWvgohNTNUVAsFITMKU8UgwVJ5jkwwkcZ7LSzUD0s7WdVBUDxvrq5cbNlKath6pFjjlz9tCVuPxH5uJ9OrfND0SIyrCuLEVT0CQcs6GV7qybVP9A7BUp1W03ElOonf9eXI/S5CoITrYzp3moa7UOL647s03OwozhQ2dYGxfQk540NUDeLQ+aUTNB+V610/eh2sW9b2DolItlZ2XaEaWkBiD9und4phD+NC024p033Ko8sQ08q11VgOCw7OZ3+kveMCPfuxZ7bayfHV2iU3mNmWTKZURmzstEwBORMD3oFmW5gUvWKgkMUG8+sy8gY+zKFW+tiLb4BVcJ4OIPAv325j6Amupdy/kDJY7kATCBwv+pkwoFVsxleP8hSn+853P5JZrbJ2NvbC2uPFhTdId1gYbU0sVHuJ9dlzUxi9lNjlzzNXNqJha0FeBe3UsMNabpdeSLphUzFNWReDIX7EGBWEKu+aR9nNgS/B/Tl85Wr54VkP+wdL6yxV0jVf9b5KyVr7VrABwy+vDXDo5OjRFniSJWY0zT0abvxpG0SPkJg7WMwBkix11fIjHExXPfHQDwmgUxjA9vo0Yib5rddK1q3XjOeYkFuYypBCNEHKWHztMrpLEaECBcPATO7BV2GiBNVbcpFuSt1P3ZqhuUyQj8gme9xcwcxZ0SkzolsUznhcsKoZ2ao4zGaX5JkaqoOw6gKkRvtAMuU4tA6QxOcE3b9uJL8yr8o4EeirakFVHDO/bxCrQbjVOiAfDDPVOGabkiad5/CPL982+oE5DJFfxMgrlXYTxk4F4vEkJE4u8a7Hm0LNm3e4XjDBwO9QJKYCLsxQIuiaNOq1weyRO4f1XgT2eCvoBdD3MRBEGcIpJWtjim4ETqjgohhmoMjnBK5FFV/6zhMRj5GxcNWRz7zW1WD/OBxtqHrLMjKSC8BIUwJFdIyAbUo+w/KYDt1yGCCx3NtOPObJ1VIW47U/liNDbXBM3KANA14msWN94MY7Ottjwc1DYqv4lzBeBdJCRCI3SGqxe9Oy5SnnRVDxBVFaBgy9kAJUMghRfhPUccgKL5G35nge7ToV+pJY14i+q2z98pl8E1hPMlZCuf4bjBnA0g2byp55uSWHDfYvXNNmo6cBZFJs6LPm47It8gT6LxOA9aGDpirL3nKt63RJwwVV4pmD2J4gdhFDQ6j/Rpm9eGXMTyEj6aFUhoHo6IC64IAzOkMdaDJSZ+VrWzukZbvL+NyTLhYVbsSMa94N8s1vUZWSlfPhTP8q8TuJuauoda61g1XAixUNgVwUJdOxH2Ad4oCRFPqeGrMshj6kFnsWFIm8lJEALwIiYJEUFGnu6zjpUnh8CUcVYnOne2gJ2vPPvzOY5O5vV0Lz5jKUA9amjHpD5mR+g6y6KBuQ5UH4LJHl1cVU++MT92ernMq5bVADHwvYqkthsEvF0axdfDcGzsNjMH41F3CntR8mOfg6PYW9GWsVRShjKkYrfPI2Wa2FtYa8DgFWXNsd+MnV20KACZ2dXyq5/j6OKLiACQ6Q+PFdayJcc8YWQgudZKXVJcJFvs9cNvuT96chAnGx/pP3j7f/9SYAcLflmQD2lc7fFwpDTGIO6n/xxQNAS2910Vv2L0a4dbWZe2bxA/LrYAlKCPcNrBjGTtEqRonzaGLniRACVEGxZK/iWa/Ipxxos4QcjzEw10yP7gbwiPhgS86PtBwwId7rFdGEjr1Xu8p2svt5fvsxPlzgDvNkZL6RkuZs8g/wOsfuUVl47xEZVwyNs2TXhqDdW8Hh3z/JpwSe3HIkkdKbTTQrSeoAHQ6hSG+IXXhEDMGifrtAoxVRG/toWYjm/zn1kANbyYBZAojeM1cmRHnEHdQBg2HhG12Ox7EZDmlVLYHTIBmGciFC9k50mNlg2PDI5JDS1qWshbxqX/OgCRodw7YwUTgu4lZ8UESTTt4Acn8uKOLeBFCeD6Zlrtde8XeEa/AFM5huVhZvDtln3Z7DfkI/49JESKoGhXDzt8LW/9OIzlUi4gpmamXqMwlYnQbAbJeJ56PCRKTP5kKilSEcZXakUGykeCxTqwwyaFXnf02QoqBR2QO6UU/uli9F4a31/BCwGMABmODfxTC2uqQDm3Yw2RpX20eMvBPO5KteE7nDHFMe/4FETXaLSHXP2FWVU7qncXip7R5xvx+7MvjJ3WkZSFW4bVm0Drfc0Q9MC44bwl41RBoDns/TrQaccQIcUljMTo07G6oGbLXIlypWCjm5ClWBmO8cqGGbAd3RCekFaKTXkhaMMvZG2MlcdBG5I4+W8Hz7jC1oEVJT4nb+fjra9z3jCPXC2Xxc7NTlykDBtMr/DXL81kIljY/xl5TVzdyN5N91D5wnfXqj3wsL4g0AbHj/TugIfuI5ZcIdwWDnk9oIVZR4IPG9GHgD42Am0iRmXnNIwL/pFld8kdiL0NglZRgDpTfs3xDoe4Ok5QGzkoO6jsgRMJC0SDYaTcrtqMcCdJ4gb7no8UNcQZqDajgwt1p/1PRqCS8eCVkjgenKUWbhdrddYCvNfniv4K7ZZIuckhziKYhwReuYA8y+W4aJ6AZhive6vwZE9njmfmLjwALLbmRpwESYalKc3rw1jazW4qvCbyylanLFtCF7KYZugzcy/wTMHUqkPdq7s32KBnxNMP6cGP9zZOExQFmfb2/Y8LwQRuS9/3iW/B9sP2+iVPDpjgm1Z529UHQms/0MsIou2Obb/ydoWUvhkdOnAMiRMAAn97xqyc/EvHE0huFTgVkvuKlyRSfto5jbR6ecpACAHdOZKRmeaFMhFa7eWlvKkq5THJ575rqlmwXRSo9NLs577zXsh7hsrKaud57thkkNqyVutDpjvwB5gL0Rbwc34fDV8oEpCZkuPquSsLurm9fTJ9Pknk3F+ypnj2ybYxywdzpVjiOXJh1R7/NjJecUS2CPUCDjz97M6FtUif/TvrU/MXjLKB4Ee8Y5HIj5o3Ccy44Ze2F5gE1Ps+b25uXHm43sqzqoNbaI8nZ3X21XNg+oQaGSS6/WjMGKKIDTtCbzFPOtZ2pVQDXiUp3Z+tvOjKPqDTkekUj6JodFz+mjBtBQXYbWyDvCgeOvJ3CQcTemA+GtyFW7dX5UvJr2DKrbAW0S1qH1kmCIQBCqtKhukMNkenuqvpXaT5VXT+IXagwbVsVP+kG7GNqlCoe8a7JdJDY6bRJ0xppTmLc9jABDM8ntkS+PtMfskbGddIA4ozbV1RNVukJA9iIDUOlQh2jo32lTNIEnqsSypMEM2DN5czzzd61D7bGRhcq2AWA92/NON8IsADdbdHkhylr5iAtuNOqUCfYkakW8QBYMjr4uRHrCJdOCY+GvNWo5tiAtdZJ/6MbL5ClvegX7HOHCDiok3bBW5K8oxiNVFECqZRJSR0HRPOFnyOSkACV3CjEP1YYgLqE3g4w1FuKxN8BJe8mSiCBjUgh8Smtd5J1xZExN2W1ezbbyEK0dcf/tVAd1WcNKF1BJOJMWGKpe8ElW14QRd2DtvuZ0Z+OFSTpdkhEUGcppo5c51FZNg7Jug6W9az4G6w8LN5kNLSO6I7xC7b9wuOgjM+42TYE59fd+3J9yhEJdgD2Yk4aigssiVullaEoM4hBMoOwGY8JCPURcdiA5jr4yjDNYgdOHff2lA/MYJbejv/jyZzwWqZyixyemV3dpP/2N9q0jkvtqZHh1o6TswGov4l02w07kd2N1QfzPYzJb/FIqJkCByJyhtHAuF++aSWwolpFe5Vy8acnaUPw1BL4+APUHMXEvFCh+EYglPeAGY6s1foeB16fDQrbCVuSwTx8bIBFHlzBRpgBFQgsRhIXS5/VTOrYBtkvNk/NAJiZwkcU/GIAMP/gpmBvUT0lL6H9Uav/FJ6JBxDY7I+yWnCzT9LuEEyYjL/ZNGsrBsbD+Uezo2q6MNyWWULJnLei0kHI2Ix6RyBoGyXmqzSvxapcSUi4gZRaaGe25hT7T2J43o2aOCoYK+xaCMOEBj6Fm3I0jUHREvOAYvo8BA5jpnoNYb/0PulPMOWHANqwyJ9su7lDcsElbmBV7FipGY/yIHvdrk2/mGgtJEc7dd7z1B1xMX36j4RVnqYAF1ZZm5ouqFsQ6DdMoBSffQrH4YqDfCmZIIcPqfjfePExeQJp4q8IB+3pzFr/9zPpQF5aTgXAeH+NYLVmn1jPxuph5reQiBOvhMm/SM2woBiUiq3yuJIqp8D7BB5lW2Oh9jeo8KZY6z/P/Zd8SagQb5oha65NCiMO7Vrt4haTtu8hYjFyWRLrXzSmokMd3mppP0dnLdLyDQYt2J3cDiXHp63XY/UoPXZshjeyJ0SM6ZJ7KafskqS/JZa/jHyRgrxyXNAQKDtsyK7/abJJ1HGGliDbDbNo9XbDhoM2zfFrAwWaeDAIWU5AiaFCz2/s5dZYa8qVXFJPdiQcJFDQxrTfvrEvOAMFrehKIFQl91UObrR8GBf+vliHFY1Y7wjvBRABLS4Hl7nYfbyHIyHDKGxiQJ1SW4IMXfs85LvUHPmSnfbNUdqXINGjnHfcVE4caJZluso0NZiJmXB8yKBGMIy1OI7u5omJbkh/9QoPJNw5Ro4h8IgBe1KABNikRy0ewCJbFKe+1F/6FFiydicuiWQDis9kU2GmGuy/vdeCj3yosTCVVZXmE5r15pcENeuK8QRU5C9UX5NotRnIuL/yg1WpZttBnCWqGRsQBNWuogKn7LnIjABdwEilqBRpKf/wPvBj/N5Pd+ieSVdzUDn+KQEZglhj27PiLo9xQmUfayXWOJG99+uwHbkm+++0StLqaWqRoL94bjvXqMO7/4WmTNOm67KmS15zXCu0GmggUDOYkxSk0IbI18DTlHpPy10JkOi5AkTOfjznumuJ9oD+XBgoEika0U0oA1WiEJfbqjbHGK6Cfih7rwDrVg9w2x/oyOxgMS6QIxZeta5rA0hs6zkC4uKtVc7ySzjTDi3tI33IjyEKznzZBhluniUsv4u8IyZ7Cczt3LwICtiFvZwJ0AkPF7Q4z37kdgnHUvGDyJPQ6m5ankSBKSoHPM/HBVG99ZCiz59gD2kt1HFn2azj90BzVFrfWEE+iUO43OYlxXsu+Y8y+auDgW9szhHzbLER1Zn9/6MwMHVYiKtkm8jorOy5u8Rquo32CN7FaCvRPQ9AxR//zubBrwY18INDSU/b3SuuqIM/zscZq7oNcRefhDcKqXLLg9Nols+feaUk3d5s55fqginzJl41rYMLze7zNVWWJ/Qv5MF+hZoiJOKmDv29n/Jmpz78XESPlxqVJiXq23BC7zJLm0N9E/Vn2Gh7PmGXLV4Vz+KzZ+niKgAkehcXDfIxbVe2UMNGFW5k9BcmKYrUEPM8JDzIyRO36UUPk6qEnYoyIcy5NT43e2ZMzC9XIfy9ff0MVzBgqLITGndgyWVsm9V61jadeR7Vm3HWZcPgq5D/UuITn5E38XLZ05tm76GVgVR/GD9AzvHwWE5bxd2R3wJxCdi/eJ+PqCVEMqhrHF1nUwmwDWhI+xFeAsqjcaLvh88mTVxxxcPVQq1GDNyP6/cKN719od0vjcgfCtp7SNjO63CZfAcobfLFr0Md/uPE5so1FCfqGfBttuytmpcXo0rnEex8ckREa49txHQ+C96hvDxAnvD22BrWD890ak//ptXN0h38yEe5tC1mWiwK4/Ay4EQE9fU+v2DL12POqAbY11xEbcEGCz+fe93lAQNtCfa/QUqQxtkipN681Y0pBOnXdgodOVNvbm3atOe2IkkmeBbvUGR26Xb/wlKsd+OHKYtdzDoJjU1k/o8I50ATQGvz2NNrxbytlrQVcOP5RUk7R8hGx9kVLZfmbEmw20CVts+4xzuQBc0dxTR+yW+Fd3STGPqmj9Xr+yYj0ZyBIyfb8SXS4l2YfdTfiRSSTKKLXHkAyjBG1PtHIcw9WM76CytSoN24jMmRw458E6Kh7GW0Bjyud6qecIZQE2QXkmZBAbrljegPu4zA6h6ncfMFsqCS1xGQY0PBwyXtAorUsZAJaTtpcCLboLOvoYzPwt1SiKvfF38Cv+RjjczKzs5zsYd/T9upLiWymDzpsMUfJzqzaZ3M4s5YNIXFw9iH07iDM9Z9HlVvNH3H2knMgalw9bH9wWuB9tXbhJlb/FEB9QkuCjT3OezQvJZrss55qtXiIOiO450JvrVQq2FRY0cBuR91TkuOk8zhnNq682R5YGfsDKME+LV43G7K/tGIhWMR0RxcTNfRa3TyAzaPVY3pLLI3D9q7QF3/lz3lZf97dxVL3dU5mIz17tJpULKvMKjqnvKtywkG/lqbc/HnKSLWLyW1vKHabv9Rlvap8r5Owm7oXGtmL/PPrDm8D6QmK4gwEgyYWF+Hqw0fjem3GmT9Emixp/3BcHIg8oeGEwBKKypjFbQZ8A3iLSnzcww5ny547JFxu5HZx1zN8eth7aUOtAEfnlh9ZYtckyG6pIKr5g9dspIfc9Jo6lMLlT/zYHC2Ns3TFhYJOUvWH6KMrzpljrlxy9cX5hDJ1huIX8frdwJmURriZBDf+SMPviy7fwdR0itDIc2qE0w5CXWKJFE5gGjTPEk2BfMUnkQA/2xczRAAXlAp1QQKb3Zln825Vkq7wJ5afP1CGRaVZP3nBMIShAYpyWgJ5KsDvg+wREk/BM83KNkwMaSpSfqBtlTaTSJN0GQm3OEfAd8A1uNhrBia5W3kkyj8O+VT5LndxRjURhfg4K9Kmcl/gZzCwYVIfvWkws8KD13T0EKxypK/w6urdL44iMyQtxM77y0uUyuTHcojhpixWtH7uWrc5HWZ1PFUmT/1lveup5rrZRlsd2MMJJu+yR50C7auNoyGQewxQpFbP/zVn1J6d40yLlUUDm7Z/9lCEbc9qe6dcKPRBjIy25KrVVY8vmPzj8rBoFCpadHkhpN4rParSPEg7Lg+Wzt6bL+WfPEU8YL2yRnjOkH6SMl2uJgkrXzLWovEIVXR8WYaAqUI9NtEPIARgs2gxJ9Gq2wq6tK/nijTEdVwzcTqqsdQo7bKxn12B1dHn8Ie/x7UZ302zOuY5Ozv1Zkyo37zoCRJU+mectK+U4vA3AZ9xBQJ/s8N5quC8pb1bl7fdl9OobFK8Tp5xq8k/e8dx3RPKZDQFoIulym+94gEnPcFzgMuKVnHPBpqwyGqSIvjtkGouG8ByZnrBkdj5ka7E9Av6f5FuvKFwXs6Znk=";
//            String str = URLDecoder.decode("HEb9baqQzhCVcEqSNA1gYCUO2J7%2BDTwfn36XD2uHDcE%2FoRhbaN1RMbG8rcaYLdknNFsnSEkYSUMRyCEJPfp5Cu4vLiun1jKo1EDZiRPS1thhR7hcsdS1mO4PZUIfHeNghP12sgWnF9foY9NggLAtKaRWKU36F2gZau3taJJ%2BFonedY2FkOdyfHqYns0AJEqeO6rQ1WfJCrJ3pb4f%2F60U03mrryUVZrfZ6Qv0KsK8WPXNbbaLAjHdLNNhmrlGHPT3cOHHkGLopoQP6aFxnAJGSM9WWlTP%2BlC6yUA5umwXTqhsRycz%2FkABB%2FobDVI%2BpzKBXCyxagVgnCiayaF%2BopDAWMknvCmUr6avXViImlgf7bvBJsddAIsGbTgmAk0cg2KXL%2F5vReMZv7HBzlZKJX%2BeJ1YlI%2B1nZmpn8ZrQzwivbqDsUMvGquaa23X%2B29aJyYaXFPTnMzjqtcfeNRpARZTIZGY3q%2FLELWm4V1IxeswsExXURpWAFDkWI5sbjcy%2Bcqt4c6M8NLiyDX0Ncjgh6JyB5wIHPd7zym62%2Fr9wzg0pdiohSGT42rhbu9I823RCMtwMWLeqsEDueUNiMiHzTV2s9iNHqSbP8lxCXzsOeMl6DXOTIfqubDiP6BqkwWlYFnM0cBw7HkOHUMMNkkYLSwu58P27U%2BJOCeiPPYXwq4LNqg86FELccIzPJUQrpZLPRFaUz6Kq9fHmsokVLH%2FeJdzwXcmoDUdrgMsPW7IHKGfCHWHl1g80hSVkdJIhIjxdxGoL6pXJTkiKlHtYioJ7ttUGl9dK2eik2GRul86DE2Z72eTYQG33CfuxGz7UvcuC%2F6I5EsQxvwucrJq9DrJt76kQgiuo%2FhJut%2BTtMLNy53SCMJExiW7MyPIavIYoybBjiNSzDcvitdBvOHSEl2W6oPD4a%2FRKgC5gBhyBqZyhc7jWRS01HYIf3GOmBBmFMPDmI9fTJ%2FE1W2JnlI4Y3IRk8piUp1iB4SfDs9KrWzcdo9jSEWrg6DTMN7D9rvNQ0%2BKnHh0BwgCbLifhtibzk%2BNmKyiJnXEy%2BtXJrmyTnw%2FhPtUjHmvdeOynevxD6KcMW6sfXigCROj77oXiaWRFvmZXaht6Iit16aIWvY0Ogk2lNPUdD2PxCf78vo2gFHmr7ykGYhT%2BalpIPDSfy3GQ%2Brm3f4%2BftPXBS71vxBdGKSjcvX9wVqvj60UFCCThDyYXpge%2BDNeHg7KjZFcm8RYRS5FrzWTXBUToBqDL8Kd%2BrYtARYIc5mnGRkgyuX9jjalwYuMqIn1AXLL6sAcTnuPXqvQ4nQ5hZWAbO1Pt%2Foz8fMCVyxlT7C46o0miEAyPt4w7o5EIJlrQtEyq9tYhdPO36SHcDopRXNj9yJtNEgj5FhKBZI9oNu0KydVNpSympLW3NPwE%2FfiwYkl3CbCIFBCNtOpBWElOEijRYwR68cWAG%2BGtdqyuHCiTDkWrkArfsCWob2FSzD7%2BE9UmqBrGI7p1PYVsIPPotBzUkKqqk7L8JhIz1Omag1CWHm7dQdnBT3G%2FIYiyPGEHEqvE%2FS6rEEKkC1qz7x%2BS6ASCn5b8Teerb6uqKusq16PNRA9qQMvPSfa7vAhqnuQOV6otUvXFT%2BvulsNrgDMxWAziBGfsDoo7pDoxlRS25EN2nA6YQ%2B%2BkSS9VnLjEtma%2FbhWXOzkjUPsKcJK7WtITxqj4OpMznshjFsr2uB%2BSDvYyYruYdAehTnOXvcEOjXplQNfExS35sbzJXAGNWT7uubEK0DRc1%2FZ79Ul1V3VJaJxamzyxo8hVv9k3mQ5TRTjSGsYnpDdp7%2B4XClVNePXl8BaUMglhVFPiqr6dmDM61nF2YhJ%2BgrOIswx1PtGDAUW%2Bx08K3GgwaQbIpXA8sFRVxQEyW%2BVT3Vlita64UVXkR6UGu9XzsAMpJClJtIJ%2BawHzflKvhh4mHzj2ryOjz2n9TpXnNYmtrVy1ZRNjWnMWu1On4yUtcxt9INW1Q9O9NmPsOowbfjGhPqAXPWzuEWfMVDMimiGwmT7AumDJIUfS1Gq31jmgQEmfec4H6JZvpn4wBF97XxVegYATzKgmPSEXWE%2BNCkT6kyPIBV6%2Bfki0O7SPEiNft87e%2Fba5FzBblY7YM%2FA3anQ%2BkOVGLCH4DE3%2ByOMHCEQa0jr8ueasRFlRNxPlImvEtNvQQTSnTFNoufaW7ij7WwcBCBOfgnqWyYv6qYsZ7jBvONUdH1QwvGo%2Fqdn4eDwbCivvum4DPYnJUiSZ%2FoRCu4gMqbWIoPyGnCIji8hmZr8LGCUFShE5WlFeIz5CnLvamwgljW2x5IhQePQ0%2F%2FefGErXMjDo2mH%2BqDh%2F4ySIooL7AQhTKCbD8ICafAPrFnqgs26RcVWrP6iFV%2FHpbMaC%2BnXR3%2FoUDmwNCOyFpp4V0xMXnTJc2TyVlS2eOcPyPV4AnYBoCsbs5XnHeHedYAnJ1Xz8g9SAJmfszncPgWsWd8yfaoNFiVgHdCKkGo8fA%2B2P6%2F4YHp4mz8gjXWx8FUL52JboQAzPlT4Bfy8Vvbxumbk%2FyD6meZF9M6At5JSDlmwqo6l2AlcO9InBZprLbzrK8TXT8IjWIdDuOu0jva3PIIz%2FAqDZafaXiURrEnfgKrQAg35ru1X%2BjBh24Td2eQhttL6YYvWjiwcxbAL7Buuo8mHML56pKyvaHVMgeWCMSQyy6OmijrOlbPUJgHhSnRM7194fytLKWKlrKWZHeePzbnAfyDGtL8%2BwA2mioKzM4O%2FSCsu%2F7Kh56h%2BZ0Zs4H7IYnOw84x23revLjfgHvoeflfHbh%2BBVfVNw07jMGC5wRcu77a2kM56ExHRvyW%2B8I3iU7qObYG7%2B6XF07q9e6K3H8Xt6NkiZd8ZoYk1IgMTFsONP4yJ1XlPc3bEc6JJHkyam65QkcXKfCQhUgJOhSzra9Pwl621Ceagiwy8K0MMSyDuVxEB1oH4tLhP9Vitt1p9IUPOLGeuYVFtuP%2FdJk1SKPdHbnUfvvI3%2B6NfKXrU24RbrkXXxLBrsXwor67ZPRnlBkREJqiRXu9U8a5k7dJX%2BN8wnkRGUINHf70j1%2B2UK6uDW0RgHTDxSbf3kZ7aiPMFrv5cuF8cMtksn7VfXjXahjgV%2FUFzWLY4XIJbEB7Lmh5NW6vQhjtc45jn%2FXAuhSArYJUysZl8Kh4MF53OXGe9jU5WxWDXwmBVhuTb%2BJ1gfUVm6wC3sWV%2BUCOu%2FMY4f%2B8S0DW5fRivYeLQ3b0WKjpLLjOCkz5QUcH1UVf3Shfb7O4igV9UEEHEPBlo5OkS88GM5oURE253Bb7nszamBI7riUhonfHLb29mQfLbLjw4T9rTTPFWDIzYJw%2BUzCNeOV%2BXWOJgp9uDjkWXmDAP7uc0h2LfnxePhvZpVT0iSmZhJ64TI8fQwKryMacOunYCdOOte0wko8xdMcp9vehkEJVMqY4m82ac7vXDwKCV3IOmGjD3%2Bs5LTriJ2VjLfPZuiL897lPYbD5YgFGVrr11KgNKMrDdIxf13fmK5lQU%2BZtTcHnLl%2BnnKsZuluF0ooxwd8MH1oso%2FpXtTtO5AuxA8ViAFwdLAj2dNXcba6HfboRgp9h%2BtHDf9RsRcXBU8xIU%2BbnqfELMB1BFIvFWi6H0JMJzV4Z64RXzGEp5%2FVt3%2BRn2Z2gIZCnm1hM9y%2FT5slTir7NckrYhwzkBAjn7oSMGQMPgFauO1hkkz%2BtndYyqphzDf97NckcHAJV39mMzvV2XqS0PJgvtqKN0prWsNbMaOepAIygdJ5cd%2BusWygr%2F0yGy9TY8sKZhnNuTOuNUrnA88dXahmIoz1GcBUNqEDlZcV04jdS4zk2uhq3yQmpRg9rqptr0AScCPVQF4a%2BShs6uLw8ejwj%2FPbZhcTdNsNwjvqCce42sD9uFbwe8fm7OCOmhLq8cG%2FjSZr7pMwk6CqHbkI%2F4gWr7Fed81D0Q76AvxUOXgyw0IZ%2Bo5%2B%2F%2FCvgJ9yQqZ7pYIi21m2oZ8HvzuxvvS574G%2BWuRf7TEiuJ%2BwR%2BNyh6WspviWmQnxMNmE%2FomUUGrQfIQ5dMCZktbsnUN3vP9KKDO9VP9R3a1R7Gk4ILuDmS1NhxXJII6wY7dlnoKRG9nQLgHG1EYHbU1mKG%2Ba1XbuR9YwJzaPzHK9Re0H%2BvU4gCmxMxzgK8aDyL0DDaOR60mzFfeoOIAT5NhBiYMkeINPLtWyVKZtZTxXFS8E%2FiUW2tiwzxWWjt3PyADkLUEn5BfWD8FPxaZm%2FOaKGGusopcfXYp9oywDbM3L996SF7zHISiA%2FDw9uZFMP5DzpHBm26wBXlSQ4tbccsorpW4JUWFIUlFp8S5Rd0%2FtC%2FqiSSOlc3bfrceUm1prsxUK3ZrE23lSsHo2AO386NbT71H46DttB8tu99CEIVJ6b5HKkCmgdbAmIF7xNCkez%2Fv2r3CGqloyEIeBlKkhGgRG%2FXe4sCD4rUo6ii1SWg1s6i%2F%2B8U6KwYdKmkx6M2QwAw%2Bze4OD3DIYw0B%2F0as%2FOskRe7bRrU6GFxRyU4fodHDL%2FEp8mCHj%2FclMoO45zyXA45xLoJc%2Bje6o7702%2FBHXFlyVIG5HVtYxDqucUhiErrWdvt4C8ibmMnLITEk3uwhvMS7X3lXUYeAib1nlz0qvzCWdiKgY02bRF2fFhNCdAur6CRUcDigw%2B0jxBkOlFq8oaryWzHilUuAuB%2Bif9kC62mtSAmIwFaN8gSdviplMco7wBIum4v9BKQh52qc5XosPyijnUtU0jiWXhCxb5nTU7LWCqesVC63vSexAtBjcE4%3D", "UTF-8");
            String ss = decode(str);
            System.err.println(ss);
        } catch (Exception e) {
            e.printStackTrace();
        }

    }

    public static String encode(String paramString1) throws Exception
    {
        Object localObject = new DESedeKeySpec(b.getBytes());
        localObject = SecretKeyFactory.getInstance("desede").generateSecret((KeySpec)localObject);
        Cipher localCipher = Cipher.getInstance("desede/CBC/PKCS5Padding");
        localCipher.init(1, (Key)localObject, new IvParameterSpec(v.getBytes()));
        return Base64Utils.encode(localCipher.doFinal(paramString1.getBytes("utf-8")));
    }

    public static String decode(String paramString1) throws Exception {
        Object localObject = new DESedeKeySpec(b.getBytes());
        localObject = SecretKeyFactory.getInstance("desede").generateSecret((KeySpec)localObject);
        Cipher localCipher = Cipher.getInstance("desede/CBC/PKCS5Padding");
        localCipher.init(2, (Key)localObject, new IvParameterSpec(v.getBytes()));
        return new String(localCipher.doFinal(Base64Utils.decode(paramString1)), "utf-8");
    }

    public static String decode(String paramString1, String paramString2) throws Exception
    {
        try
        {
            SecureRandom localSecureRandom = new SecureRandom();
            DESKeySpec param = new DESKeySpec(paramString2.getBytes("UTF-8"));
            SecretKey paramStr = SecretKeyFactory.getInstance("DES").generateSecret(param);
            Cipher localCipher = Cipher.getInstance("DES");
            localCipher.init(2, paramStr, localSecureRandom);
            return new String(localCipher.doFinal(paramString1.getBytes()));
        }
        catch (Exception paramStr) {
            System.err.println(paramStr.getMessage());
        }
        return "";
    }
    private static byte[] bs(String paramString) throws Exception
    {
        Object localObject2 = null;
        Object localObject1 = localObject2;
        try
        {
            byte[] arrayOfByte = paramString.getBytes("UTF-8");
            localObject1 = localObject2;
            if (arrayOfByte.length % 2 != 0)
            {
                localObject1 = localObject2;
                throw new IllegalArgumentException("Invalid hex string");
            }
            localObject1 = localObject2;
            byte[] param = new byte[arrayOfByte.length / 2];
            int i = 0;
            for (;;)
            {
                localObject1 = param;
                localObject2 = param;
                if (i >= arrayOfByte.length) {
                    break;
                }
                localObject1 = param;
                localObject2 = new String(arrayOfByte, i, 2);
                localObject1 = paramString;
                param[(i / 2)] = ((byte)Integer.parseInt((String)localObject2, 16));
                i += 2;
            }

            System.err.println(new String((byte[])localObject2));
            return (byte[])localObject2;
        }
        catch (UnsupportedEncodingException param)
        {
            System.err.println("Aa");
            localObject2 = localObject1;
        }
        System.err.println("Aa");
        return null;
    }
}
